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Multipurpose induction conductivity measuring electrode

A multi-purpose, electrode technology, applied in the measurement of electrical variables, current density measurement, measurement of resistance / reactance / impedance and other directions, can solve the problems that ordinary electrodes cannot meet, and achieve the effect of convenient comparison

Inactive Publication Date: 2012-07-04
XI AN JIAOTONG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when using the voltammetric characteristic method to measure the induced conductivity in a simulated space environment, ordinary electrodes cannot meet the requirements for on-line measurement of induced conductivity under high-energy electron beam irradiation.

Method used

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  • Multipurpose induction conductivity measuring electrode
  • Multipurpose induction conductivity measuring electrode
  • Multipurpose induction conductivity measuring electrode

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Embodiment Construction

[0017] The structural principle and working principle of the present invention will be described in more detail below in conjunction with the accompanying drawings.

[0018] Such as figure 1 As shown, the present invention is a multipurpose electrode for inductive conductivity measurement, including a metal upper case 1 and a metal lower case 7, which are arranged in the metal upper case 1 and fixed on the insulating resin with the metal upper case 1 The disc 2, the upper electrode ring 8 and the upper shielding ring 3, which are arranged at the lower end of the insulating resin upper disc 2 and fixed with the insulating resin disc 2, are arranged in the metal lower case 7 and fixed with the annular metal lower case 7 The insulating resin round table 11 is arranged on the upper end of the insulating resin round table 11 and the current collecting plate 10 fixed with the insulating resin round table 11 is arranged on the lower end of the current collecting plate 10 and the beam...

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Abstract

The invention relates to a multipurpose induction conductivity measuring electrode which comprises an upper radiation-resistant insulating resin disc, a round radiation-resistant insulating resin table and a lower radiation-resistant insulating resin disc, wherein the upper radiation-resistant insulating resin disc is arranged in and fixed with an upper metal shell, and a top electrode ring and an upper shading ring are fixed at the lower end of the upper insulating resin disc; the round radiation-resistant insulating resin table is arranged in and fixed with a lower metal shell, and a volt-ampere electric current collecting plate is arranged at the upper end of the round insulating resin table; the lower radiation-resistant insulating resin disc is arranged in and fixed with the lower metal shell, and a bottom electrode ring and a bottom shading ring are fixed at the upper end of the lower radiation-resistant insulating resin disc; an electric potential testing connector is arranged at one end of the outer side of the upper metal shell, an electric current testing connector is arranged at one end of the lower metal shell, and a zero potential connector connected with a lower shading ring is arranged at the other end of the lower metal shell, and circular holes are arranged at one ends of the upper shading ring and the lower shading ring; and the electrode is applied to the measurement of normal conductivity of a dielectric material and induction conductivity after high-energy electron beam irritation in a simulated space environment and simultaneously can be used for measuring the beam current density of electron beams of a penetration test sample.

Description

technical field [0001] The invention belongs to the technical field of inductive conductivity measurement using a voltammetric characteristic method, and in particular relates to a multipurpose electrode for inductive conductivity measurement. Background technique [0002] Insulation medium has now become a key component of modern electrical and electronic devices, and conductivity has always been one of its most basic and important parameters. The radiation-induced conductivity caused by various high-energy particle radiation under complex space environment conditions is the key to measure the performance of the medium in the spacecraft. Studies have shown that the induced electrical conductivity caused by high-energy radiation in space directly reflects the accumulation of electrostatic charge inside the polymer, the ability to release electrostatic charge and the change state of the insulating properties of the material. When the induced conductivity continues to increas...

Claims

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Application Information

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IPC IPC(8): G01R27/02G01R19/08
Inventor 郑晓泉智生龙南江韩鹏凯
Owner XI AN JIAOTONG UNIV
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